CN114668979B - Laser physiotherapy system and control method - Google Patents

Abstract

The invention provides a laser physiotherapy system and a control method, wherein the laser physiotherapy system comprises detection equipment and a laser physiotherapy instrument; in the detection equipment, a data acquisition module acquires physiological data of a target object, and a first data processing module generates first control information according to the physiological data; the laser physiotherapy instrument comprises a laser generator and a second data processing module; the first control information is transmitted to the second data processing module and second control information is generated; the second control information comprises a light emitting frequency, and a functional relation exists between the light emitting frequency and the heartbeat or pulse frequency; a laser generator emits laser to a target part of a target object; the laser has the advantages that the luminous frequency is matched with the heartbeat or pulse frequency, the treatment process is optimized, the luminous frequency of the laser generator is accurately controlled, accurate treatment is realized, the deformability of laser red blood cells is enhanced, blood circulation is promoted, the laser action range is large, the treatment effect is improved, and the treatment time is shortened.

Description

Laser physiotherapy system and control method

Technical Field

The invention belongs to the technical field of laser therapy, and particularly relates to a laser physiotherapy system and a control method.

Background

With the development of medical laser technology, the application research of laser therapy in the field of human disease prevention and treatment makes a major breakthrough; in recent years, the laser extravascular irradiation technology has wide application prospect due to the characteristics of convenient use, easy household treatment and high safety. The laser external irradiation technology is that low-energy laser penetrates through skin tissues, muscles and vascular walls and is absorbed by hemoglobin, so that the deformability of red blood cells is enhanced, the rheological property of blood is improved, the oxygen conveying capacity of blood is enhanced, and metabolism is promoted, thereby achieving the effect of treating vascular diseases.

In the prior art, in the process of carrying out laser treatment on a target object, the light emitting frequency of a laser generator at a part to be treated is fixed, the light emitting frequency is not related to the whole blood circulation characteristic of the target object, particularly to the heartbeat or pulse frequency, the treatment process is simple, the light emitting frequency control mode of the laser generator is single, and the laser treatment device has the defects of narrow laser action range, unobvious treatment effect and long required treatment time.

Disclosure of Invention

In view of the above, the present invention provides a laser physiotherapy system and a control method thereof, so as to solve the problems of narrow laser action range, unobvious treatment effect, long treatment time and the like caused by the fixed laser frequency emitted by the laser physiotherapy instrument in the prior art.

The invention provides a laser physiotherapy system, which comprises detection equipment and a laser physiotherapy instrument; the detection device comprises a data acquisition module, a first data processing module and a first communication module;

the data acquisition module is used for acquiring physiological data of a target object in a target time period, wherein the physiological data comprises heartbeat or pulse data; the first data processing module is used for processing the physiological data and generating first control information associated with heartbeat or pulse data; the first communication module sends the first control information to the laser physiotherapy instrument;

the laser physiotherapy instrument comprises a laser generator, a second data processing module and a second communication module;

the second communication module is used for being in communication connection with the first communication module so as to receive the first control information and send the first control information to the second data processing module; the second data processing module is used for generating second control information for controlling the light emitting frequency of the laser generator according to the first control information;

the second control information includes the light emission frequency V _Luminescence And V is _Luminescence ＝f(V _Heartbeat ) Or V _Luminescence ＝f(V _{Pulse wave} ) In which V is _Heartbeat Representing the frequency of the heartbeat, i.e. the heart rate; v _{Pulse rate} Represents the frequency of the pulse, i.e. the pulse rate; f represents a set parameter V _Heartbeat Or V _{Pulse rate} A frequency function of (a);

the laser generator generates light with the light-emitting frequency V _Luminescence Operate and move to the targetThe target portion of the object emits far infrared semiconductor laser light.

Further optionally, V _Luminescence ＝V _Heartbeat Or V _Luminescence ＝V _{Pulse rate} 。

Further optionally, the detection apparatus further includes a first storage module and a first time control module; the first data processing module comprises a first feature extraction module and a first analysis module;

the first time control module is used for setting a target time period and a target acquisition duration when the data acquisition module acquires physiological data of a target object;

the first feature extraction module is used for performing feature extraction on the physiological data to obtain the current frequency of heartbeat or pulse;

the first storage module is used for storing the historical frequency of the heartbeat or the pulse and/or a standard frequency model of the heartbeat or the pulse which is established based on the target time period, the historical health state of the target object and the historical frequency of the heartbeat or the pulse;

the first analysis module is used for generating the first control information according to the target time period, the current frequency and a standard frequency model;

the first storage module continuously stores the current frequency as a historical frequency, and the first analysis module continuously optimizes a standard frequency model according to the updated historical frequency of the heartbeat or pulse.

Further optionally, the first analysis module is configured to import the target time period into the standard frequency model, so as to obtain a first frequency interval and a second frequency interval corresponding to the target time period;

the first analysis module is configured to determine whether the current frequency is within the first frequency interval, and when the current frequency is within the first frequency interval, determine that a health status of a target object is good, where the first control information includes a current frequency V1 of a heartbeat _Heartbeat Or the current frequency V1 of the pulse _{Pulse rate} And V is _Heartbeat ＝V1 _Heartbeat ，V _{Pulse rate} ＝V1 _{Pulse rate} ；

When the current frequency is not in the first frequency interval, continuously judging whether the current frequency is in the second frequency interval, and when the current frequency is in the second frequency interval, determining that the health state of the target object is abnormal, wherein the first control information comprises a standard frequency V2 of heartbeat _Heartbeat Or standard frequency of pulse V2 _{Pulse rate} And V is _Heartbeat ＝V2 _Heartbeat ，V _{Pulse rate} ＝V2 _{Pulse wave} (ii) a Standard frequency of heartbeat V2 _Heartbeat And the standard frequency V2 of the pulse _{Pulse rate} Are within the first frequency interval.

Further optionally, the laser physiotherapy instrument further comprises a second storage module, a second time control module and a circuit control module; the second storage module is used for storing the corresponding relation between the target time period and the laser generator and historical data of the operation of the laser generator; the second time control module is used for acquiring the current moment;

the laser generators comprise a plurality of laser generators, and the laser generators are electrically connected to the circuit control module in parallel; the second data processing module is electrically connected with the second storage module, the second time control module and the circuit control module respectively, and controls the laser generators to operate according to a preset program through the circuit control module according to historical data and a target time period of the current time;

the corresponding relation between the target time period and the laser generator is determined according to the corresponding relation between the target part and the target time period and the corresponding relation between the target part and the laser generator;

the preset program is set according to the corresponding relation between the target time period and the laser generator and the operation target duration of the laser generator.

Further optionally, a plurality of the laser generators are distributed according to the characteristics of the target portion, and each of the laser generators corresponds to an acupoint of the target portion, so that the laser generated by the laser generator can irradiate the corresponding acupoint.

Further optionally, the laser physiotherapy system further comprises a remote device, wherein the remote device comprises a third storage module, a third communication module and a third data processing module; the third communication module is used for being in communication connection with the first communication module and/or the second communication module;

the physiological data also comprises identity characteristic data, target part characteristic data and current function parameters of the target part; the first communication module transmits the heartbeat or pulse data, the identity characteristic data, the target part characteristic data and the current function parameter of the target part to the third storage module through the third communication module; the second communication module transmits the historical data of the operation of the laser generator to the third storage module through the third communication module; the third storage module stores and updates the stored data in real time after receiving the data;

the third data processing module is used for generating a treatment sample model related to the heartbeat or pulse data, the identity characteristic data, the target part characteristic data and the current functional parameters of the target part according to the data stored by the third storage module through machine learning; searching a corresponding treatment sample according to the identity characteristics of the target object;

the third data processing module generates a laser physiotherapy instrument sample model related to the treatment sample model according to the data stored in the third storage module by machine learning, and can search a corresponding laser physiotherapy instrument sample according to the treatment sample;

and the third communication module transmits the treatment sample to the second data processing module through the second communication module, and then controls the laser physiotherapy instrument sample to run by the treatment sample.

Further optionally, the laser generator is a semiconductor laser generator; the target part of the target object is an eye or a neck or a shoulder or a leg.

Further optionally, the laser generator comprises twelve, six acupoints are respectively at left eye and right eye of the target subject, and the six acupoints are respectively Tongziliao acupoint, sizhuhong acupoint, zanzhu acupoint, jingming acupoint, sibai acupoint and Chengqi acupoint; the preset program of the laser generator comprises:

when the current time is within a time period of 5;

when the current time is within a time period of 13;

when the current time is within a time period of 19-00;

controlling the laser generator corresponding to the Tongziliao acupoint to be turned on when the current time is within the time period of 21.

Further optionally, the laser generator emits laser light having a wavelength λ and a power P, wherein 62Onm < λ < 680nm and P < 5mW.

The invention also provides a control method of the laser physiotherapy system, which comprises the following steps:

starting the detection equipment and the laser physiotherapy instrument;

acquiring physiological data of a target object in a target time period;

generating the first control information associated with heartbeat or pulse data;

generating the second control information for controlling the light emission frequency of the laser generator from the first control information;

controlling the laser generator to emit light with a light emitting frequency V to the target part of the target object _Luminescence The laser of (1);

wherein, V _Luminescence ＝f(V _Heartbeat ) Or V _Luminescence ＝f(V _{Pulse rate} )，V _Heartbeat Representing the frequency of the heartbeat; v _{Pulse rate} Representing the frequency of the pulse; f represents a setting parameter V _Heartbeat Or V _{Pulse rate} As a function of the frequency of (c).

Further optionally, the generating the first control information associated with heartbeat or pulse data comprises:

extracting the characteristics of the physiological data to obtain the current frequency of heartbeat or pulse;

obtaining a first frequency interval and a second frequency interval corresponding to the target time period according to the target time period and a standard frequency model;

judging whether the current frequency is in the first frequency interval or not, and when the current frequency is in the first frequency interval, the first control information comprises the current frequency V1 of the heartbeat _Heartbeat Or the current frequency V1 of the pulse _{Pulse rate} And V is _Heartbeat ＝V1 _Heartbeat ，V _{Pulse rate} ＝V1 _{Pulse rate} ；

When the current frequency is not in the first frequency interval, continuously judging whether the current frequency is in the second frequency interval, and when the current frequency is in the second frequency interval, the first control information comprises a standard frequency V2 of heartbeat _Heartbeat Or standard frequency V2 of the pulse _{Pulse rate} And V is _Heartbeat ＝V2 _Heartbeat ，V _{Pulse rate} ＝V2 _{Pulse wave} ；

Wherein the standard frequency model is obtained according to the target time period, the historical health state of the target object and the historical frequency of the heartbeat or the pulse; standard frequency of the heartbeat V2 _Heartbeat And the standard frequency V2 of the pulse _{Pulse rate} Are within the first frequency interval.

Further optionally, the acquiring physiological data of the target object in the target time period further comprises:

and controlling a plurality of laser generators to operate according to a preset program.

Further optionally, the controlling the plurality of laser generators to operate according to a preset program includes:

acquiring a current moment and determining a target time period of the current moment;

extracting the physiological data to obtain the current vision of the target object;

determining a running target time length corresponding to the current eyesight;

and controlling the laser generator corresponding to the target time period to start and continue the operation for the target time period.

Compared with the prior art, the invention has the following beneficial effects:

(1) The light emitting frequency of the laser generator at the target part is associated with the heartbeat or pulse frequency of the target object, so that the light emitting frequency is matched with the heartbeat or pulse frequency, the treatment process is optimized, the light emitting frequency of the laser generator is accurately controlled, accurate treatment is realized, the deformability of laser red blood cells is enhanced, blood circulation is promoted, the treatment effect is improved, and the treatment time is shortened; especially when the luminous frequency is consistent with the heartbeat or pulse frequency, the same-frequency resonance principle of blood circulation is utilized, the energy with the same frequency as the heartbeat or pulse is added at the position to be treated, the blood of the position to be treated is improved, and the fatigue and the disease of the position to be treated are relieved;

(2) Establishing a standard frequency model of the heartbeat or pulse based on the target time period, the historical health status of the target subject and the historical frequency; generating a corresponding first control signal according to the target time period and the health state of the target object, and further controlling the laser generator to emit laser with corresponding light-emitting frequency, so that the same frequency of the light-emitting frequency and heartbeat or pulse is ensured, and meanwhile, the problems of improper light-emitting frequency, weak acting force on a target part and poor treatment effect when the health state of the target object is abnormal are avoided;

(3) The laser generators are arranged corresponding to the acupuncture points of the target part, and the laser emitted by the laser generators can irradiate the corresponding acupuncture points, so that the action positions of the laser are more targeted and accurate; in addition, according to different target time periods, the corresponding laser generator is controlled to be started and continuously run for the corresponding target time length, so that the action time of the laser is more accurate, the treatment effect is improved, the blood circulation of a target part is effectively improved, the required treatment time is shortened, and the problems of inaccurate action position and action time of the laser are solved;

(4) The identity characteristic data, the target part characteristic data, the current target part function data and the heartbeat or pulse data of the target object are obtained in real time, a treatment sample model is generated through a third data processing module, the obtained data are more complete and accurate, the characteristics and functions of the target part are highly matched with a treatment scheme through multi-stage optimization, and the treatment effect is more obvious; the corresponding optimal treatment sample model and the laser physiotherapy instrument sample model can be searched according to the identity characteristics of the target object, the searching is rapid, the problems that physiological data acquired in the prior art are incomplete, the speed of searching the treatment sample model is slow and inconvenient are solved, and the problem that the stress light generator cannot be pertinently provided for the target object in the prior art is solved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structures, ratios, sizes, and the like shown in the present specification are only used for matching with the contents disclosed in the specification, so as to be understood and read by those skilled in the art, and are not used to limit the conditions that the present invention can be implemented, so that the present invention has no technical significance, and any structural modifications, changes in the ratio relationship, or adjustments of the sizes, without affecting the effects and the achievable by the present invention, should still fall within the range that the technical contents disclosed in the present invention can cover.

Fig. 1 is a schematic structural view of an embodiment of the eye laser physiotherapy instrument provided by the invention;

FIG. 2 is a schematic structural view of an embodiment of the present invention in which an elastic tube, a laser generator and a transparent body are assembled;

FIG. 3a is a schematic structural diagram of an embodiment of acupoint distribution for the left and right eyes of a target object according to the present invention;

FIG. 3b is a schematic structural diagram of an embodiment of the distribution of elastic tubes on the eye laser physiotherapy instrument according to the present invention;

FIG. 4 is a control logic diagram of an embodiment of the laser physiotherapy system of the present invention;

fig. 5 and 4 are schematic flow charts of a control method of the laser physiotherapy system provided by the invention;

1-eye laser physiotherapy equipment; 11-a scaffold; 111-a first mounting portion; 1111-a first set of mounting locations; 1112-a first line of sight hole; 112-a second mounting portion; 1121-second set of mounting locations; 1122-a second line of sight hole; 12-an elastic tube; 1211-elastic tube A; 1212-elastic tube B; 1213-elastic tube C; 1214-elastomeric tube D; 1215-elastomeric tube E; 1216-elastic tube F; 1221-elastic tube a; 1222-elastic tube b; 1223-elastic tube c; 1224-elastomeric tube d; 1225-elastic tube e; 1226-elastic tube f;

123-a clamping groove; 14-a light transmissive body; 141-convex surface; 142-a snap-in part; 151-left leg support; 152-a right support leg; 16-eye mask;

211-Tongziliao acupoint A; 212-bamboo cavity B; 213-Cunzhu acupoint C; 214-Jingming acupoint D; 215-Sibai acupoint E; 216-Chengqi acupoint F;

221-Tongziliao acupoint a; 222-bamboo cavity b; 223-Cunzhu acupoint c; 224-Jingming point d; 225-Sibai acupoint e; 226-Chengqi acupoint f.

Detailed Description

The present invention is described in terms of particular embodiments, other advantages and features of the invention will become apparent to those skilled in the art from the following disclosure, and it is to be understood that the described embodiments are merely exemplary of the invention and that it is not intended to limit the invention to the particular embodiments disclosed. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

The terminology used in the embodiments of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used in the examples of the present invention and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, and "a" and "an" generally include at least two, but do not exclude at least one, unless the context clearly dictates otherwise.

It should be understood that the term "and/or" as used herein is merely a relationship that describes an associated object, meaning that three relationships may exist, e.g., a and/or B, may represent: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter related objects are in an "or" relationship.

It is also noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a good or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such good or system. Without further limitation, an element defined by the phrases "comprising one of \8230;" does not exclude the presence of additional like elements in an article or system comprising the element.

In the prior art, in the process of carrying out laser treatment on a target object, the light emitting frequency of a laser generator at a part to be treated is fixed, the light emitting frequency is not related to the whole blood circulation characteristic of the target object, particularly to the heartbeat or pulse frequency, the treatment process is simple, the operating parameters of the laser generator are single, and the laser treatment device has the defects of narrow laser action range, unobvious treatment effect and long required treatment time.

The invention creatively provides a laser physiotherapy system, which comprises detection equipment and a laser physiotherapy instrument; the detection device comprises a data acquisition module, a first data processing module and a first communication module; the data acquisition module can acquire physiological data of the target object in a target time period, wherein the physiological data comprises heartbeat or pulse data; the first data processing module generates first control information according to the physiological data; the laser physiotherapy instrument comprises a laser generator, a second data processing module and a second communication module; the first control information is sent to the second data processing module through the first communication module and the second communication module; the second data processing module generates second control information according to the first control information; the first control information comprises heartbeat or pulse frequency, the second control information comprises luminous frequency, and functional relation exists between the luminous frequency and the heartbeat or pulse frequency; the laser generator operates at a light emitting frequency and emits laser to a target part of a target object;

the light emitting frequency of the laser generator at the target part is associated with the heartbeat or the pulse frequency of the target object, so that the light emitting frequency is matched with the heartbeat or the pulse frequency, the treatment process is optimized, the light emitting frequency of the laser generator is accurately controlled, accurate treatment is realized, the deformability of laser red blood cells is enhanced, the blood circulation is promoted, the laser action range is large, the treatment effect is improved, and the treatment time is shortened.

Example 1

Integral structure

As shown in fig. 4, the present embodiment provides a laser physiotherapy system for treating disorders at a target site and performing health care on the target site; the laser physiotherapy system comprises detection equipment and a laser physiotherapy instrument; the detection equipment comprises a data acquisition module, a first data processing module and a first communication module which are electrically connected in sequence;

the data acquisition module is used for acquiring physiological data of a target object in a target time period, wherein the physiological data comprises heartbeat or pulse data, identity characteristic data, target part characteristic data, vision data and the like;

the first data processing module is used for processing the physiological data and generating first control information associated with heartbeat or pulse data, and specifically, the first control information comprises heartbeat or pulse frequency; the first communication module sends the first control information to the laser physiotherapy instrument;

the laser physiotherapy instrument comprises a laser generator 13, a second data processing module and a second communication module;

the second communication module is in communication connection with the first communication module to receive the first control information and send the first control information to the second data processing module;

the second data processing module is used for generating second control information for controlling the light emitting frequency of the laser generator 13 according to the first control information; in particular, the second control signalInformation including the luminous frequency V _Luminescence And V is _Luminescence ＝f(V _Heartbeat ) Or V _Luminescence ＝f(V _{Pulse rate} ) In which V is _Heartbeat Representing the frequency of the heartbeat, i.e. the heart rate; v _{Pulse rate} Represents the frequency of the pulse, i.e. the pulse rate; f represents a set parameter V _Heartbeat Or V _{Pulse wave} A frequency function of (a);

the laser generator 13 generates light at a frequency V _{Luminescence of the light} Operating and emitting far infrared semiconductor laser to a target portion of a target object;

in summary, the light emitting frequency of the laser generator 13 at the target site is correlated with the heartbeat or pulse frequency of the target object, so that the light emitting frequency is adapted to the heartbeat or pulse frequency, the laser generator 13 emits the laser with the light emitting frequency of V and acts on the target site, so that the blood flow characteristic of the target site is consistent with the blood flow characteristic generated by the heartbeat or pulse, the laser generator 13 and the heartbeat or pulse act in a synergistic manner, the treatment process is optimized, the light emitting frequency of the laser generator 13 is accurately controlled, accurate treatment is realized, the deformability of laser red blood cells is enhanced, blood circulation is promoted, the treatment effect is improved, and the treatment time is shortened.

Preferably, V _Luminescence ＝V _Heartbeat Or V _{Luminescence of the light} ＝V _{Pulse wave} (ii) a By utilizing the same-frequency resonance principle of blood circulation, the energy with the same frequency as the heartbeat or the pulse is added at the part to be treated, the blood of the part to be treated is improved, and the fatigue and the disease of the part to be treated are relieved;

specifically, the light emitting frequency of the laser generator is the number of times the laser generator emits light per minute, for example: the pulse frequency of a normal person is (60-100) times/minute, and the light emitting frequency of the laser generator is (60-100) times/minute; preferably, the laser light generated by the laser generator is pulsed laser light with a peak value and constant power, the light generating period of each time of the laser generator is t, t includes a light-emitting period t1 and a light-non-emitting period t2, and the 30% t < t1 < t 50% is calculated; preferably, 0.3 s.ltoreq.t 1.ltoreq.0.5 s.

For V _Luminescence ＝f(V _Heartbeat ) Or V _Luminescence ＝f(V _{Pulse wave} ) CollectingWhen the current frequency of the arrived heartbeat or pulse is in the first frequency interval, the first control information comprises the current frequency V1 of the heartbeat _Heartbeat Or the current frequency V1 of the pulse _{Pulse rate} And V is _Heartbeat ＝V1 _Heartbeat ，V _{Pulse wave} ＝V1 _{Pulse rate} (ii) a The second control information includes a light emission frequency V _Luminescence At this time, V _Luminescence ＝V1 _Heartbeat Or V _Luminescence ＝V1 _{Pulse wave} ；

When the current frequency of the acquired heartbeat or pulse is within the second frequency interval, the first control information comprises the standard frequency V2 of the heartbeat _Heartbeat Or standard frequency of pulse V2 _{Pulse wave} And V is _Heartbeat ＝V2 _Heartbeat ，V _{Pulse rate} ＝V2 _{Pulse wave} (ii) a Standard frequency of heartbeat V2 _Heartbeat And the standard frequency V2 of the pulse _{Pulse rate} All within a first frequency interval, V2 _Heartbeat Current frequency V1 of heartbeat _Heartbeat Average value of (2), V2 _{Pulse rate} Is the current frequency V1 of the pulse _{Pulse rate} Average value of (a).

Other constructions of the detecting apparatus

< first storage Module and first clocked Module >

As shown in fig. 4, the detection apparatus further includes a first storage module and a first time control module, both of which are electrically connected to the first data processing module; the first data processing module comprises a first feature extraction module and a first analysis module;

the first time control module is used for setting a target time period and a target acquisition duration when the data acquisition module acquires the physiological data of the target object; specifically, the first timing module is provided with four target time periods, including a first time period, a second time period, a third time period and a fourth time period, and respectively being 5; correspondingly, the first time control module is provided with four target time durations which comprise a first time duration, a second time duration, a third time duration and a fourth time duration; the characteristics of the acquired physiological data are different in different target time periods and different target durations, and the acquisition module is controlled to acquire the physiological data according to the target time periods and the corresponding target durations, so that the low precision and inaccuracy of the physiological data caused by incomplete acquired physiological data are avoided;

the first feature extraction module is used for performing feature extraction on the physiological data to obtain the current frequency of heartbeat or pulse; specifically, the data acquisition module comprises a heartbeat or pulse data acquisition module, the heartbeat or pulse data acquisition module acquires heartbeat or pulse data and transmits the heartbeat or pulse data to the first feature extraction module, the first feature extraction module acquires peak points of the heartbeat or pulse within a target duration from the heartbeat or pulse data, counts the number of the peak points of the heartbeat or pulse, and calculates the current period of the heartbeat or pulse to obtain the current frequency of the heartbeat or pulse; it should be noted that the current period of the heartbeat or the pulse can also be obtained by the number of the trough points or the zero points of the heartbeat or the pulse within the target time length; the first storage module stores the historical frequency of the heartbeat or the pulse;

the first analysis module establishes a standard frequency model of the heartbeat or the pulse based on the target time period, the historical health state of the target object and the historical frequency of the heartbeat or the pulse; the first storage module continuously stores the current frequency as historical frequency, and the first analysis module continuously optimizes the standard frequency model according to the updated historical frequency to enable the standard frequency model to be infinitely close to the actual frequency of the heartbeat or the pulse of the target object; specifically, the historical health status of the target object comprises good and abnormal, and when the health status of the target object is different, the standard frequency of heartbeat or pulse is different;

the first analysis module generates first control information according to the target time period, the current frequency and the standard frequency model; specifically, the first analysis module is configured to import the target time period into the standard frequency model, and obtain a first frequency interval and a second frequency interval corresponding to the target time period;

the first analysis module judges whether the current frequency is in a first frequency interval, and when the current frequency is in the first frequency interval, the health state of the target object is determined to be good, and the first control information comprises the current frequency V1 of the heartbeat _Heartbeat Or the current frequency V1 of the pulse _{Pulse rate} And V is _Heartbeat ＝V1 _Heartbeat ，V _{Pulse wave} ＝V1 _{Pulse rate} (ii) a The second control information includes a light emission frequency V _{Luminescence of the light} And V is _Luminescence ＝f(V1 _Heartbeat ) Or V _{Luminescence of the light} ＝f(V1 _{Pulse wave} ) (ii) a Preferably, V _{Luminescence of the light} ＝V1 _Heartbeat Or V _Luminescence ＝V1 _{Pulse rate} ；

When the current frequency is not in the first frequency interval, the first analysis module continues to judge whether the current frequency is in the second frequency interval, when the current frequency is in the second frequency interval, the health state of the target object is determined to be abnormal, and the first control information comprises the standard frequency V2 of the heartbeat _Heartbeat Or standard frequency V2 of the pulse _{Pulse wave} And V is _Heartbeat ＝V2 _Heartbeat ，V _{Pulse wave} ＝V2 _{Pulse wave} (ii) a Standard frequency of heartbeat V2 _Heartbeat And the standard frequency V2 of the pulse _{Pulse rate} All in the first frequency interval, when the health status of the target object is good, V2 _Heartbeat Current frequency V1 of heartbeat _Heartbeat Average value of (2), V2 _{Pulse rate} Is the current frequency V1 of the pulse _{Pulse rate} Average value of (d);

in summary, the corresponding first control signal is generated according to the target time period and the health status of the target object, and the laser generator 13 is further controlled to emit the laser with the corresponding light emitting frequency, so that the same frequency of the light emitting frequency and the heartbeat or pulse is ensured, and meanwhile, the problems of inappropriate light emitting frequency, weak acting force on the target part and poor treatment effect when the health status of the target object is abnormal are avoided.

< first display Module and first Power Module >

Furthermore, the detection equipment also comprises a first display module for displaying the running state of the detection equipment; when the health state of the target object is determined to be good, the first display module displays the information of the current frequency; when the health state of the target object is determined to be abnormal, the first display module displays information that the current frequency is abnormal.

In addition, when the detection equipment is used, the detection equipment can be directly and electrically connected with an external power supply to supply power to each module of the detection equipment; or the detection equipment also comprises a first power supply module which is electrically connected with other modules of the detection equipment to supply power; when the first power supply module needs to be charged, the first power supply module is directly electrically connected with an external power supply for charging;

intelligent hand ring

The detection equipment is an intelligent bracelet or an intelligent watch or a flexible sensing patch which can be pasted on a pulse detection part and is used for detecting the pulse frequency at the wrist; preferably, the detection device is a smart bracelet;

the intelligent bracelet comprises a data acquisition module, a first data processing module and a first communication module which are electrically connected in sequence; the data acquisition module is used for acquiring the pulse data of the target object in a target time period, and the target time period and the pulse data have a one-to-one correspondence relationship;

the first data processing module is used for processing the pulse data and generating first control information; the first communication module is used for being in communication connection with the second communication module and sending the first control information to the second data processing module; the second data processing module is used for generating second control information for controlling the light emitting frequency of the laser generator 13 according to the first control information; the second control information includes a pulse frequency;

the intelligent bracelet also comprises a first storage module and a first time control module which are electrically connected with the first data processing module; the first data processing module comprises a first feature extraction module and a first analysis module; the first time control module is used for setting a target time period and a target acquisition duration when the data acquisition module acquires the pulse data;

the first feature extraction module is used for extracting features of the pulse data to obtain the current frequency of the pulse; the first storage module stores historical frequency of pulses; the first analysis module establishes a standard frequency model of the pulse based on the target time period, the historical health state of the target object and the historical frequency of the pulse; the first storage module continuously stores the current frequency as a historical frequency, and the first analysis module continuously optimizes the standard frequency model according to the updated historical frequency to enable the standard frequency model to be infinitely close to the actual frequency of the pulse of the target object; the first analysis module generates first control information according to the target time period, the current frequency and the standard frequency model;

the intelligent bracelet also comprises a first display module and a first power supply module, wherein the first display module is used for the running state of the intelligent bracelet, and the first power supply module is electrically connected with other parts of the intelligent bracelet to supply power; when the first power supply module needs to be charged, the first power supply module is directly electrically connected with an external power supply for charging.

The intelligent bracelet also comprises a bracelet starting key, a time adjusting key and an acquisition adjusting key; the intelligent bracelet can be started through a bracelet starting key, a time adjusting key and an acquisition adjusting key, the time adjusting key can set a target time period of a data acquisition module, and the acquisition adjusting key can set the intensity of acquisition laser;

the operation flow of the intelligent bracelet:

the smart bracelet is worn on the wrist, the data acquisition module is aligned with the artery bridge, the smart bracelet is started by pressing a bracelet starting key, the second display module is on, and the smart bracelet enters a standby state;

continuing pressing the bracelet starting key for 1 second, enabling the smart bracelet to enter a preparation state, adjusting the time adjusting key and the acquisition adjusting key at the moment, and enabling the smart bracelet not to respond; pressing a hand ring starting key for 1 second, and emitting light and acquiring pulse signals by a data acquisition module according to set parameters;

the data acquisition unit acquires pulse signals and transmits the pulse signals to the first feature extraction module, and the first feature extraction module performs feature extraction on the pulse data to obtain the current frequency of the pulse; the first analysis module generates first control information according to the target time period, the current frequency and the standard frequency model;

the first communication module transmits the first control signal to the second data processing module through the second communication module, and the second data processing module controls the laser generator 13 of the laser physiotherapy instrument to emit laser at pulse frequency.

Other structures of laser physiotherapy instrument

< second storage module, second clock module, and circuit control module >

As shown in fig. 4, the laser physiotherapy instrument further comprises a second storage module, a second time control module and a circuit control module; the second storage module is used for storing the corresponding relation between the target time period and the laser generator 13 and the historical data of the operation of the laser physiotherapy instrument; the second time control module is used for setting a target time period when the laser generator 13 runs; specifically, the target time period set by the second time control module is the same as the target time period set by the first time control module, or the second time control module is provided with a time period before breakfast, a time period after breakfast, a working time period in the morning, a rest time period in the morning, a break time period in the afternoon, a rest time period in the afternoon, a time period before supper, a time period after supper and a sleep time period; different target time periods, the same target part has different blood flow characteristics; the target operation time length is determined by the target part characteristic data and the current function parameters of the target part, and the target operation time lengths required by different target parts are different, so that the target part characteristic data and the current function parameters are matched with the target operation time length, the symptoms of the target part can be conveniently and timely treated, and the treatment effect is improved;

the laser generators 13 comprise a plurality of laser generators 13, and the plurality of laser generators 13 are electrically connected to the circuit control module in parallel; the second data processing module is electrically connected with the second storage module, the second time control module and the circuit control module respectively, and controls the plurality of laser generators to operate according to a preset program through the circuit control module according to historical data and a target time period of the current moment; the preset program is set according to the corresponding relation between the target part and the target time period, the corresponding relation between the target part and the laser generator and the running target duration of the laser generator; specifically, after the laser physiotherapy instrument is started, the second time control module acquires the current time, and judges which target time period the current time is in through the second data processing module, the second data processing module transmits the target time period the current time is in to the circuit control module, and the circuit control module controls the corresponding laser generator 13 to be started and continuously operates for the target time length matched with the target position characteristic data and the current functional parameters;

the target time period includes 5;

when the current time is within the time period of 5;

when the current time is within the time period of 12;

when the current time is within the time period of 19;

when the current time is within the time period of 21;

the number of target time periods and the size of each time period are not limited, and may be adjusted according to actual needs.

From this, when the present moment is in different target time quantum, the laser generator 13 that second data processing module control corresponds is opened, has optimized the treatment process for the action time of laser is more accurate, has enlarged the use flexibility of laser physiotherapy equipment, suits with the physiology law of target object simultaneously, has optimized laser generator 13's control mode, improves treatment, and it is single to solve laser generator 13 control mode, leads to the poor and many problems of energy consumption of treatment.

When the communication connection between the laser physiotherapy instrument and the detection equipment fails, the circuit control module can control the laser generator 13 to operate according to the historical data of the operation of the laser physiotherapy instrument.

< second display Module and second Power Module >

Further, the laser physiotherapy instrument also comprises a second display module for displaying the running state of the laser physiotherapy instrument; the running state of the laser physiotherapy instrument comprises the opening, closing and failure of the laser generator 13;

in addition, when the laser physiotherapy instrument is used, the laser physiotherapy instrument can be directly and electrically connected with an external power supply to supply power to each module of the laser physiotherapy instrument; or the laser physiotherapy instrument further comprises a second power supply module which is electrically connected with other modules of the laser physiotherapy instrument to supply power; electrically connecting the second power supply module with an external power supply, and charging the second power supply module;

preferably, the laser light generator 13 is a semiconductor laser light generator 13.

The laser generator 13 emits laser light with wavelength of lambda and power of P, wherein lambda is more than 620nm and less than 680nm, and P is less than 5mW; preferably, λ =650nm.

Eye laser physiotherapy equipment

With the progress of social modernization, the incidence of myopia is continuously increased, more and more children are suffered from myopia, and the myopia is a social problem which cannot be ignored; the myopia-preventing health care pillow has the advantages that physical and mental health of teenagers and children is influenced, the occurrence of myopia of students tends to be gradually younger, high myopia easily causes retinal detachment, maculopathy, cataract and glass opacity which are formed prematurely, and the vision protection of the teenagers is also more and more emphasized in China.

Preferably, the target site of the target object is an eye, and the laser physiotherapy instrument is an eye laser physiotherapy instrument 1 worn on the eye of the target object.

< integral Structure >

As shown in fig. 1 and fig. 2, the present embodiment provides an eye laser physiotherapy apparatus 1, which includes a support 11, two sets of laser generators and two sets of transparent bodies; the bracket 11 is used for arranging the eye laser physiotherapy instrument 1 on the eyes of a target object; the two groups of laser generators are respectively arranged at the positions, corresponding to the left eye and the right eye of the target object, of the bracket 11, each group of laser generators comprises a plurality of laser generators 13, the plurality of laser generators 13 in one group of laser generators are distributed around the left eye of the target object, and the plurality of laser generators 13 in the other group of laser generators are distributed around the right eye of the target object; two sets of transparency bodies set up on support 11 with two sets of laser generator one-to-one, and every group transparency body includes a plurality of transparency bodies 14, and a plurality of transparency bodies 14 in every group set up with a plurality of laser generator 13 one-to-one that correspond a group laser generator, and every transparency body 14 is located the light-emitting side of the laser generator 13 that it corresponds.

< Stent >

As shown in fig. 1, the cradle 11 forms a first mount portion 111 corresponding to a left eye of the target object and a second mount portion 112 corresponding to a right eye of the target object; the first mounting portion 111 is provided with a first group of mounting positions 1111, the first group of mounting positions 1111 comprises six mounting positions, and the six mounting positions are arranged corresponding to six acupuncture points of the left eye one by one; a second group of mounting positions 1121 is formed on the second mounting portion 112, the second group of mounting positions 1121 includes six mounting positions, and the six mounting positions are arranged corresponding to six acupuncture points of the right eye one by one; the six installation positions of the first group of installation positions 1111 and the six installation positions of the second group of installation positions 1121 are respectively and detachably provided with an elastic pipe 12;

the plurality of laser generators 13 are arranged in the corresponding elastic tubes 12, and the light transmission body 14 is arranged at the end part of the corresponding elastic tube 12 and is positioned at the light emitting side of the laser generators 13; the laser generated by the laser generator 13 is focused on the corresponding acupuncture points along the elastic tube 12 to the transparent body 14 under the action of the transparent body 14;

in other embodiments, the mounting portion is provided with an elastic sleeve forming a plurality of mounting holes, the laser generator 13 is disposed in the corresponding mounting hole, and the light-transmitting body 14 is disposed at the end of the corresponding mounting hole and located on the light-emitting side of the laser generator 13; the laser emitted by the laser generator 13 reaches the light-transmitting body 14 along the mounting hole, and is focused at the corresponding acupuncture point under the action of the light-transmitting body 14;

from this, laser generator 13 sets up in elasticity pipe 12 or mounting hole, has optimized laser generator 13's setting, when playing the guard action to laser generator 13, guarantees that target object wears comfortable and not damage eyes behind the eye laser physiotherapy equipment 1, and adaptable different patients ' individualized demand, improves laser physiotherapy equipment's travelling comfort.

< light-transmitting body >

The light-transmitting body 14 is an elastic gel having wettability to an aqueous solvent, and is a convex surface 141 on a side thereof facing away from the laser generator 13, the convex surface 141 being configured such that when the eye laser physiotherapy instrument 1 is placed on the eyes of a target subject, the convex surface 141 abuts against the skin of the target subject; when the laser generator 13 is controlled to start, the laser emitted by the laser generator is focused on a target part through the action of the convex surface 141 of the light-transmitting body 14; according to different diseases of a target part, the convex surface 141 can be infiltrated with a hydrosolvent with a corresponding treatment function, so that targeted treatment is realized, and the treatment efficiency and effect are ensured;

the water solvent is effective in promoting blood circulation, removing blood stasis, and penetrating into skin, such as water solvent prepared from Saviae Miltiorrhizae radix, radix astragali, carthami flos, rhizoma Ligustici Chuanxiong, lumbricus, semen Cassiae, radix Paeoniae alba and folium Menthae, wherein radix astragali has effects of invigorating qi, invigorating yang, consolidating superficial resistance, arresting sweating, inducing diuresis, and relieving swelling; the red sage root, safflower and hemlock parsley have the functions of promoting blood circulation, removing blood stasis and protecting blood vessels; the white peony root has the effects of nourishing blood, regulating menstruation, calming the liver, relieving pain and arresting sweating; the cassia seed has the effects of removing heat, calming the liver, suppressing yang, clearing liver, improving vision, removing nebula and nourishing liver yang; the earthworm has the effect of guiding, permeating and activating blood; the mint leaves have the effects of dispelling wind and heat, soothing the liver, promoting the circulation of qi, detoxifying, promoting eruption and clearing head and eyes; preferably, the water solvent comprises 15g of astragalus, 15g of salvia miltiorrhiza, 10g of safflower, 10g of ligusticum wallichii, 10g of radix paeoniae alba, 6g of mint and 10g of earthworm, and is obtained by low-temperature steam extraction.

In order to solve the problem that when the surface of the transparent body 14 is soaked with the aqueous solvent, the aqueous solvent is not uniformly distributed, so that the treatment effect is poor, the embodiment proposes that the transparent body 14 is a mixture of flowing paraffin and a thermoplastic elastomer; or the light-transmitting body 14 is any one of agar, gelatin and an ultrasonic coupling agent; the surface quality and the wettability of the light-transmitting body 14 are improved, so that the hydrosolvent is uniformly distributed on the convex surface, the stable and uniform output of laser is facilitated, the laser and the hydrosolvent can cooperatively enter the skin, the treatment capacity of the laser is improved, and the treatment range of the laser is enlarged.

As shown in fig. 2, in order to solve the problem that the convex surface 141 of the transparent body 14 has a small focusing effect and is not comfortable when being attached to the face, in the embodiment, the convex surface 141 is a hemispherical surface; preferably, the whole body of the light-transmitting body 14 is a sphere structure, one side of the light-transmitting body 14 is close to the laser generator 13, the other side of the light-transmitting body is close to the skin, and the laser is focused on the target part of the skin through the light-transmitting body, so that the laser can form an action area and can penetrate into the skin, enough laser can enter the skin, and the laser is prevented from being lost due to diffuse reflection.

In order to solve the problem that the light-transmitting body 14 is reliably fixed, in the present embodiment, a clamping groove 121 is formed at an end of the elastic tube 12 or the mounting hole, a clamping portion 142 is further formed on the light-transmitting body 14, and the clamping portion 142 is matched with the clamping groove 121 to fix the light-transmitting body 14 at the end of the elastic tube 12 or the mounting hole; a plurality of clamping grooves 121 can be arranged, and a plurality of light-transmitting bodies 14 can be further arranged; in addition, the light-transmitting body 14 can be deformed, so that the positions of the light-transmitting body 14 and the laser generator 13 can be adjusted, the focusing effect of the light-transmitting body 14 is further improved, and the treatment effect is enhanced;

it should be noted that the number of groups of laser generators 13, the number of groups of transparent bodies 14, the number of laser generators 13 in each group of laser generators, and the number of transparent bodies in each group are not limited, and can be set according to actual needs;

in conclusion, the laser emitted by the laser generator 13 is focused on the target positions of the left eye and the right eye under the action of the light-transmitting body 14, the action position is accurate, the action force is concentrated, the action effect is obvious, the blood circulation of the eyes is effectively improved, and the required treatment time is shortened; the convex surface 141 of the light transmission body 14 can fill and level up the skin surface, which is beneficial to focusing laser and penetrating into the body, and enhances the treatment effect of the laser generator 13; the transparent body 14 can be flexibly arranged according to different eye diseases, and when the eye diseases are light, the transparent body 14 can be directly treated by laser without being arranged; the light-transmitting body 14 can be deformed, when eye diseases are moderate and the like, the distance between the light-transmitting body 14 and the laser generator 13 can be adjusted, or the focusing effect of the light-transmitting body 14 is improved by arranging a plurality of light-transmitting bodies 14; when eye diseases are serious, the surface of the light-transmitting body 14 can be soaked with a corresponding hydrosolvent, the laser has certain penetrating power, and the hydrosolvent effectively penetrates into skin and blood under the action of the laser, so that the eye blood flow of a target object is improved, the treatment range of the eye laser physiotherapy instrument 1 is expanded, the treatment function is enhanced, and a plurality of diseases are treated simultaneously; the problems that the laser physiotherapy instrument cannot accurately act on a target position due to unreasonable structural design, the treatment effect is not obvious, the treatment function is single, the treatment range is narrow and the like are solved.

< laser Generator >

As shown in fig. 3b, in order to solve the problem of poor treatment effect caused by inaccurate laser action position, the embodiment provides that the two groups of laser generators are respectively a first group of laser generators and a second group of laser generators, and the first group of laser generators and the second group of laser generators both include six laser generators 13; wherein the distribution of six laser generators 13 of one group of laser generators on the bracket 11 is configured to correspond to six acupuncture points of the left eye of the target object, and the distribution of six laser generators 13 of the other group of laser generators on the bracket 11 is configured to correspond to six acupuncture points of the right eye of the target object;

the eye laser physiotherapy instrument 1 further comprises a first group of light-transmitting bodies and a second group of light-transmitting bodies, wherein the first group of light-transmitting bodies and the second group of light-transmitting bodies comprise six light-transmitting bodies 14; the light-transmitting body 14 is arranged at the light-emitting side of the corresponding laser generator 13, and the convex surface 141 of the light-transmitting body 14 is attached to the corresponding acupuncture point;

therefore, the laser generated by the laser generator 13 acts on the acupuncture points, so that the acting position of the laser is more targeted and accurate; the setting mode of the laser generator 13 is optimized, the treatment effect is obvious, the energy consumption of the eye laser physiotherapy instrument 1 is reduced, and the problems of poor treatment effect and high energy consumption caused by unreasonable setting of the position of the laser generator 13 are solved;

specifically, the distribution of the laser generators at the left and right eyes is as follows:

(1) Laser generator for left eye

As shown in fig. 3a, the black points around the left eye represent the acupoints of the left eye, and the six black points correspond to six acupoints, specifically including a point a211 of portillaliao, a point B212 of bamboo filament, a point C213 of mangosteen, a point D214 of Jingming, a point E215 of Sibai and a point F216 of Chengqi;

six laser generators 13 in the first group of laser generators are arranged corresponding to six acupuncture points of the left eye of the target object, and the six laser generators 13 in the first group of laser generators comprise a laser generator A, a laser generator B, a laser generator C, a laser generator D, a laser generator E and a laser generator F;

the six elastomeric tubes 12 of first set of mounting locations 1111 include elastomeric tube a1211, elastomeric tube B1212, elastomeric tube C1213, elastomeric tube D1214, elastomeric tube E1215, and elastomeric tube F1216; six laser generators 13 in the first group of laser generators are respectively arranged in six corresponding elastic tubes 12 of the first group of mounting positions 1111;

the correspondence between the laser generator, the elastic tube, the transparent body and the acupoints at the left eye is shown in table 1:

TABLE 1

Laser generator A	Elastic tube A1211	Light-transmitting body A	Tongziliao acupoint A211
				Laser generator B	Elastic tube B1212	Light-transmitting body B	Bamboo cavity B212
Laser generator C	Elastic tube C1213	Light-transmitting body C	Cuanzhu acupoint C213
				Laser generator D	Elastic tube D1214	Light-transmitting body D	Jingming acupoint D214
Laser generator E	Elastic tube E1215	Light-transmitting body E	Sibai acupoint E215
				Laser generator F	Elastic tube F1216	Light-transmitting body F	Chengqi acupoint F216

Six light-transmitting bodies 14 in the first group of light-transmitting bodies comprise a light-transmitting body A, a light-transmitting body B, a light-transmitting body C, a light-transmitting body D, a light-transmitting body E and a light-transmitting body F; six light-transmitting bodies 14 in the first group of light-transmitting bodies are respectively arranged at the ends of six corresponding elastic tubes 12 at the first group of mounting positions 1111;

(2) Laser generator for right eye

As shown in fig. 3a, the black points around the right eye represent the acupoints of the right eye, and the six black points correspond to six acupoints, specifically including Tongziliao acupoint a221, sizhuchong acupoint b222, zanzhu acupoint c223, jingming acupoint d224, sibai acupoint e225 and Chengqi acupoint f 226;

six laser generators 13 in the second group of laser generators comprise a laser generator a, a laser generator b, a laser generator c, a laser generator d, a laser generator e and a laser generator f; six laser generators 13 in the second group of laser generators are arranged corresponding to six acupuncture points of the right eye of the target object;

the corresponding relationship among the laser generator, the elastic tube, the transparent body and the acupuncture points at the right eye are shown in table 2:

TABLE 2

Laser generator a	Elastic tube a1221	Light-transmitting body a	Tongziliao acupoint a221
				Laser generator b	Elastic tube b1222	Light-transmitting body b	The hole b222 of the silk bamboo
Laser generator c	Elastic tube c1223	Light-transmitting body c	Cuanzhu acupoint c223
				Laser generator d	Elastic tube d1224	Light-transmitting body d	Jingming acupoint d224
Laser generator e	Elastic tube e1225	Light-transmitting body e	Sibai acupoint e225
				Laser generator f	Elastic tube f1226	Light-transmitting body f	Chengqi acupoint f226

The six resilient tubes 12 of the second set of mounting locations 1121 include resilient tube a1221, resilient tube b1222, resilient tube c1223, resilient tube d1224, resilient tube e1225, and resilient tube f 1226; six laser generators 13 in the second group of laser generators are respectively arranged in six corresponding elastic tubes 12 of the second group of mounting positions 1121;

six light-transmitting bodies 14 in the second group of light-transmitting bodies comprise a light-transmitting body a, a light-transmitting body b, a light-transmitting body c, a light-transmitting body d, a light-transmitting body e and a light-transmitting body f; six light-transmitting bodies 14 of the second group of light-transmitting bodies are respectively arranged at the ends of six corresponding elastic tubes 12 at the second group of mounting positions 1121;

in addition, the eye laser physiotherapy apparatus 1 is further provided with a start/stop button and a nasal bridge groove, the start/stop button being located between the first mounting portion 111 and the second mounting portion 112 and at the top of the eye laser physiotherapy apparatus 1; the nasal bridge groove is of an inverted U-shaped structure, is positioned between the first installation part 111 and the second installation part 112 and is positioned at the top of the eye laser physiotherapy instrument 1; after the target object wears the eye laser physiotherapy instrument 1, the nose bridge is clamped in the nose bridge groove, and the eye laser physiotherapy instrument 1 is fixed.

< eye mask and leg support >

As shown in fig. 1, aiming at the problem that the eye laser physiotherapy instrument 1 is inconvenient to wear, the eye laser physiotherapy instrument 1 further comprises an eye mask 16 and support legs; the eye mask 16 is used for fixing the eye laser physiotherapy instrument 1 on the eyes of a target object, the support 11 is detachably arranged on the eye mask 16, and the structure of the eye mask 16 is matched with that of the support 11; the support legs comprise two, namely a left support leg 151 and a right support leg 152; the left support leg 151 and the right support leg 152 are respectively arranged at two ends of the eye mask 16, and the light emitting direction of the laser generator 13 extends; the bracket legs are used for fixing the eye laser physiotherapy instrument 1 at the left ear and the right ear of the target object, so that the target object can conveniently and quickly wear the eye laser physiotherapy instrument 1, and the laser physiotherapy instrument can be reliably fixed at the eyes and the ears of the target object; in addition, the holder 11 and the eyecup 16 may be integrally formed.

The first mounting portion 111 is formed with a first sight line hole 1112 corresponding to the left eye of the target object; the second mounting portion 112 is formed with a second sight hole 1122 corresponding to the right eye of the target object; the eye mask 16 comprises an eye mask 16 frame, a left lens and a right lens which are arranged on the eye mask 16 frame and respectively correspond to the left eye and the right eye of the target object; after the target object wears the eye laser physiotherapy instrument 1, external light reaches the left eyeball through the left lens and the first sight line hole 1112, and then the left eyeball can observe an object in front of the sight line of the left eyeball; the external light reaches the right eyeball through the right lens and the second sight hole 1122, and the right eyeball can observe an object in front of the sight line of the right eyeball.

In conclusion, the plurality of laser generators 13 are arranged corresponding to the plurality of acupuncture points of the eye, and the laser generated by the laser generators 13 can irradiate the corresponding acupuncture points, so that the action positions of the laser are more targeted and accurate; in addition, according to the difference of target time quantum, control corresponding laser generator 13 and start and last corresponding target duration for the action time of laser is more accurate, has improved treatment, solves the inaccurate problem of action position and the action time of laser.

The operation process of the eye laser physiotherapy instrument 1 is as follows:

(1) taking the light-transmitting body 14 soaked with the hydrosolvent out of the disposable sealing bag, placing the light-transmitting body in a clamping groove 121 of the eye laser physiotherapy instrument 1 corresponding to the elastic tube 12, wearing the eye laser physiotherapy instrument 1 on the target object, enabling the light-transmitting body 14 to be attached to the periphery of the left eye and/or the right eye of the target object, and enabling the laser light emitted by the laser generator 13 to be focused on the periphery of the left eye and/or the right eye of the target object;

(2) starting the eye laser physiotherapy instrument 1, acquiring the current time by a second time control module and transmitting the current time to a second data processing module, determining the target time period of the current time by the second data processing module, and searching a laser generator 13 corresponding to the target time period of the current time by a second storage module;

(3) the second data processing module controls the corresponding laser generator 13 to start;

(4) the second communication module carries out data transmission with the outside, acquires the pulse frequency of the target object and transmits the pulse frequency of the target object to the second data processing module, and the second data processing module controls the corresponding laser generator 13 to emit laser at the pulse frequency of the target object;

(5) the second communication module transmits data with the outside and acquires target part characteristic data and target part current function parameters, the second data processing module determines target operation duration according to the target part characteristic data and the target part current function parameters, and the second data processing module controls the corresponding laser generator 13 to continuously operate for the target operation duration;

(6) displaying the corresponding laser generator 13 and the light emitting frequency and the operation duration of the laser generator 13 through a second display module;

when the current time, the pulse frequency of the target object, the target part characteristic data and the current functional parameters of the target part are changed, the corresponding laser generator 13 is changed, and the light emitting frequency and the operation target time length of the laser generator 13 are changed.

Remote device

In this embodiment, the laser physiotherapy system further includes a remote device, where the remote device includes a third storage module, a third communication module, and a third data processing module; the third communication module is used for being in communication connection with the first communication module and/or the second communication module; specifically, the remote device is an intelligent device terminal or a remote server or a cloud processing system; the first communication module, the second communication module and the third communication module can communicate in a wired or wireless mode; the intelligent device terminal or the remote server can control the starting of the detection device through the first communication module and the third communication module so as to collect physiological data of the target object, and can control the starting of the laser physiotherapy instrument through the second communication module and the third communication module so as to treat a target part of the target object;

the physiological data also comprises identity characteristic data, target part characteristic data and current functional parameters of the target part; the first communication module transmits the heartbeat or pulse data, the identity characteristic data, the target time period, the target part characteristic data and the current function parameter of the target part to a third storage module through a third communication module; the second communication module transmits the historical data of the operation of the laser generator 13 to a third storage module through a third communication module; the third storage module stores and updates the stored data in real time after receiving the data; specifically, the identity characteristic data may be face data, fingerprint data, and password data;

the third data processing module is used for generating a treatment sample model related to the heartbeat or pulse data, the identity characteristic data, the target time period, the target part characteristic data and the current functional parameters of the target part according to the data stored by the third storage module through machine learning; the third data processing module receives the heartbeat or pulse data, the identity characteristic data, the target time period, the target part characteristic data and the current functional parameters of the target part, then leads the data into a treatment sample model, and searches a corresponding treatment scheme; different target objects correspond to different treatment sample models, one target object corresponds to one treatment sample model, but one treatment sample model comprises a plurality of different treatment schemes which respectively correspond to different target parts; different treatment regimens produce different therapeutic effects;

heartbeat or pulse data, identity characteristic data, a target time period, target part characteristic data and current target part function parameters are obtained in real time or at preset time intervals and are transmitted to a remote device, and a third data processing module updates data in a treatment sample model;

preferably, the target region is an eye, the target region feature data is eye feature data, and the current function parameter of the target region is a current vision parameter.

The third data processing module is used for performing machine learning according to the data stored in the third storage module to generate a laser physiotherapy instrument sample model related to the treatment sample model, the laser physiotherapy instrument structure data and the laser physiotherapy instrument function data, and searching a corresponding laser physiotherapy instrument sample according to the treatment scheme;

because the treatment sample model comprises the characteristic data of the target part and the current functional parameters of the target part, the corresponding structural data and functional data of the laser physiotherapy instrument are suitable for the target object;

the third communication module transmits the treatment scheme to the second data processing module through the second communication module, and then controls the corresponding laser physiotherapy instrument to run according to the treatment scheme.

In conclusion, the treatment sample model and the laser physiotherapy instrument sample model enable the acquired data to be more complete and accurate, and the characteristics and functions of the target part are highly matched with the treatment scheme through multi-stage optimization, so that the treatment effect is more obvious; the corresponding optimal treatment sample model and the laser physiotherapy instrument sample model can be searched according to the identity characteristics of the target object, the searching is rapid, the problems of incomplete physiological data, slow speed and inconvenience for searching the treatment sample model in the prior art are solved, and the problem that the stress light generator 13 cannot be pertinently provided for the target object in the prior art is solved; the change situation and the treatment effect of the target part along with the time can be accurately judged, the prospective analysis and the grasp of the target object and a doctor on the treatment process are facilitated, the treatment scheme meets the requirements of the target object, and the treatment efficiency is improved.

The target site of the target object is not limited to the eye, and may be the neck, the shoulder, or the leg.

Control method

As shown in fig. 5, this embodiment further provides a control method of a laser physiotherapy system, where the laser physiotherapy system is the laser physiotherapy system described above; the control method comprises the following steps:

s1, starting detection equipment and a laser physiotherapy instrument;

s2, collecting physiological data of a target object in a target time period;

s3, generating first control information related to heartbeat or pulse data;

s4, generating second control information for controlling the light emitting frequency of the laser generator 13 by the first control information;

s5, controlling the laser generator 13 to emit light with a light emitting frequency V to the target part of the target object _Luminescence The laser of (1);

wherein, V _Luminescence ＝f(V _Heartbeat ) Or V _{Luminescence of the light} ＝f(V _{Pulse rate} )，V _Heartbeat Representing the frequency of the heartbeat; v _{Pulse rate} Representing the frequency of the pulse; f represents a set parameter V _Heartbeat Or V _{Pulse rate} A frequency function of (a);

starting the detection equipment and the laser physiotherapy instrument, enabling all modules of the detection equipment and the laser physiotherapy instrument to be in a charged state, and enabling the data acquisition module to start acquiring physiological data of a target object;

further, S3 includes:

s31, extracting the characteristics of the physiological data to obtain the current frequency of the heartbeat or the pulse;

s32, obtaining a first frequency interval and a second frequency interval corresponding to the target time period according to the target time period and the standard frequency model;

s33, judging whether the current frequency is in a first frequency interval or not, and when the current frequency is in the first frequency interval, the first control information comprises the current frequency V1 of the heartbeat or the current frequency V1 of the pulse _{Pulse wave} And V is _Heartbeat ＝V1 _Heartbeat ，V _{Pulse rate} ＝V1 _{Pulse wave} ；

S34, when the current frequency is not in the first frequency interval, continuously judging whether the current frequency is in the second frequency interval, and when the current frequency is in the second frequency interval, the first control information comprises the standard frequency V2 of the heartbeat _Heartbeat Or standard frequency V2 of the pulse _{Pulse rate} And V is _Heartbeat ＝V2 _Heartbeat ，V _{Pulse rate} ＝V2 _{Pulse rate} ；

The standard frequency model is obtained according to a target time period, the historical health state of a target object and the historical frequency of heartbeat or pulse; standard frequency of heartbeat V2 _Heartbeat And the standard frequency V2 of the pulse _{Pulse rate} Are all within the first frequency interval.

Further, before S2, the method further includes:

s20, controlling a plurality of laser generators to operate according to a preset program;

the preset program is set according to the corresponding relation between the target part and the target time period, the corresponding relation between the target part and the laser generator and the running target duration of the laser generator;

s20 comprises the following steps:

s201, acquiring the current time and determining a target time period corresponding to the current time;

s202, extracting physiological data to obtain current functional parameters of a target part of a target object;

s203, determining an operation target time length corresponding to the current function parameter of the target part;

and S204, controlling the laser generator 13 corresponding to the target time period to start and continuously operate for the target time period.

In this embodiment, preferably, the target region is an eye region, the current function parameter of the target region is a current vision, and the determining the operation target duration corresponding to the current vision by calculating the duration after the laser generator 13 is started includes:

judging the vision zone of the current vision;

determining the operation target duration corresponding to the vision section where the current vision is located;

specifically, the vision intervals comprise a first vision interval, a second vision interval, a third vision interval and a fourth vision interval, and are respectively 3.0-3.5, 3.6-4.1, 4.2-4.7 and 4.8-5.3;

when the current vision is in a first vision interval, determining that the laser generator 13 corresponding to the target time period lasts for a first operation target time length after being started;

when the current vision is in a second vision interval, determining that the laser generator 13 corresponding to the target time period lasts for a second operation target time length after being started;

when the current eyesight is in a third eyesight interval, determining that the laser generator 13 corresponding to the target time period is started and continues for a third operation target time length;

when the current eyesight is in a fourth eyesight interval, determining that the laser generator 13 corresponding to the target time period is started and then continues to operate for a fourth target time length;

further, controlling the laser generator 13 corresponding to the target time period to start and continuously operate for the target time period includes:

when the current time is in the first time period, the laser generator E1, the laser generator F1, the laser generator E2 and the laser generator F2 are controlled to be opened and continuously run for a target time length corresponding to the vision interval where the current vision is located, and the light emitting frequency is emitted to the target part of the target object and is V _{Luminescence of the light} The laser of (1);

when the current time is in the second time period, the laser generator C1, the laser generator D1, the laser generator C2 and the laser generator D2 are controlled to be opened and continuously kept for the running target time length corresponding to the vision interval where the current vision is located, and the light emitting frequency is emitted to the target part of the target object and is V _{Luminescence of the light} The laser of (1);

at presentWhen the time is in a third time period, controlling the laser generator B1 and the laser generator B2 to be started and to continue for an operation target time length corresponding to the vision zone where the current vision is located, and emitting light-emitting frequency V to the target part of the target object _{Luminescence of the light} The laser of (1);

when the current time is in the fourth time period, the laser generator A1 and the laser generator A2 are controlled to be started and continuously run for a running target time length corresponding to the vision interval where the current vision is located, and the light emitting frequency of the light emitting frequency is emitted to the target part of the target object and is V _{Luminescence of the light} The laser of (1).

The preset programs comprise a first preset program and a second preset program, and when the second data processing module does not receive the operation target, the plurality of laser generators 13 are controlled to operate according to the first preset program; when the second data processing module receives the operation target long time, controlling the plurality of laser generators 13 to operate according to a second preset program;

the first preset program is:

p11, acquiring the current time in real time and determining a target time period of the current time;

p12, controlling the laser generator corresponding to the target time period of the current moment to start, and controlling other laser generators to close;

specifically, the starting of the laser generator is determined by the target time period of the current time, and the closing of the laser generator is determined by whether the current time spans to the next target time period; when the laser generator corresponding to the target time period of the current moment is controlled to be started, other laser generators are controlled to be closed; when the current time spans to the next target time period, controlling the laser generator corresponding to the target time period of the current time to be closed, and controlling the laser generator corresponding to the next target time period to be started; for example: when the time is within a time period of 5; when the time is within a time period of 12.

The second preset program is:

p21, acquiring the current moment in real time and determining the target time period of the current moment;

p22, controlling the laser generator corresponding to the target time period of the current time to start;

p23, obtaining the operation target duration of the laser generator corresponding to the target time period of the current moment;

p24, controlling the laser generator corresponding to the target time period of the current time to continuously operate for the target time length;

specifically, the starting of the laser generator is determined by the target time period of the current moment, and the closing of the laser generator is determined by the operation target time length; controlling a laser generator corresponding to a target time period of the current moment to start, and controlling the laser generator to be closed when the actual operation time of the laser generator reaches the operation target time; when the current time spans the next target time period, controlling a laser generator corresponding to the next target time period to start; for example: when the time is within a time period of 5; when the time is in a time period of 12; when the actual operation time of the laser generator E, the laser generator F, the laser generator E and the laser generator F reaches the operation target time, controlling the laser generator E, the laser generator F, the laser generator E and the laser generator F to be closed; when the actual operation time of the laser generator C, the laser generator D, the laser generator C and the laser generator D reaches the operation target time, the laser generator C, the laser generator D, the laser generator C and the laser generator D are controlled to be closed.

Example 2

Unlike embodiment 1, S2 further includes:

judging whether an object exists in a preset range in front of the eye sight line of the target object;

if yes, the staying time of the eye sight of the target object on the object is obtained;

and comparing the stay time with the preset stay time and determining the corresponding operation target time.

Further, comparing the dwell time with a preset dwell time and determining a corresponding operating target time comprises:

when the stay time is shorter than a first preset stay time, determining that the operation target time is a first operation target time;

when the stay time is longer than the first preset stay time, determining the operation target time as a second operation target time;

the larger the stay time period, the longer the required operation target time period.

Exemplary embodiments of the present disclosure are specifically illustrated and described above. It is to be understood that the present disclosure is not limited to the precise arrangements, instrumentalities, or instrumentalities described herein; on the contrary, the disclosure is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

Claims (4)

1. A laser physiotherapy system is characterized by comprising detection equipment and a laser physiotherapy instrument; the detection device comprises a data acquisition module, a first data processing module, a first communication module, a first storage module and a first time control module;

the data acquisition module is used for acquiring physiological data of a target object in a target time period, wherein the physiological data comprises heartbeat or pulse data; the first data processing module is used for processing the physiological data and generating first control information associated with heartbeat or pulse data, and the first data processing module comprises a first feature extraction module and a first analysis module; the first communication module sends the first control information to the laser physiotherapy instrument;

the first time control module is used for setting a target time period and a target acquisition duration when the data acquisition module acquires physiological data of a target object; the first feature extraction module is used for performing feature extraction on the physiological data to obtain the current frequency of heartbeat or pulse; the first storage module is used for storing the historical frequency of the heartbeat or the pulse and/or a standard frequency model of the heartbeat or the pulse which is established based on the target time period, the historical health state of the target object and the historical frequency of the heartbeat or the pulse; the first analysis module is used for generating the first control information according to the target time period, the current frequency and a standard frequency model;

the first storage module stores the current frequency in real time, and the first analysis module optimizes a standard frequency model according to the updated historical frequency of the heartbeat or the pulse;

the first analysis module is used for importing the target time period into the standard frequency model to obtain a first frequency interval and a second frequency interval corresponding to the target time period; the first analysis module is further configured to determine whether the current frequency is within the first frequency interval, and when the current frequency is within the first frequency interval, determine that the health status of the target object is good, where the first control information includes a current frequency V1 of a heartbeat _Heartbeat Or the current frequency V1 of the pulse _{Pulse rate} And V is _Heartbeat =V1 _Heartbeat ，V _{Pulse wave} =V1 _{Pulse wave} ；

When the current frequency is not in the first frequency interval, continuously judging whether the current frequency is in the second frequency interval, when the current frequency is in the second frequency interval, determining that the health state of the target object is abnormal, and then the first control information comprises a standard frequency V2 of heartbeat _Heartbeat Or standard frequency of pulse V2 _{Pulse wave} And V is _Heartbeat =V2 _Heartbeat ，V _{Pulse rate} =V2 _{Pulse rate} (ii) a Standard frequency of heartbeat V2 _Heartbeat And the standard frequency V2 of the pulse _{Pulse rate} Are all within the first frequency interval;

the laser physiotherapy instrument comprises a laser generator, a second data processing module and a second communication module;

the second communication module is used for being in communication connection with the first communication module so as to receive the first control information and send the first control information to the second data processing module; the second data processing module is used for generating second control information for controlling the light emitting frequency of the laser generator according to the first control information;

the second control information includes the light emission frequency V _Luminescence And V is _Luminescence =V _Heartbeat Or V _Luminescence =V _{Pulse wave} In which V is _Luminescence Indicating the number of times the laser generator emits light per minute; v _Heartbeat Representing the frequency of the heartbeat, i.e. the heart rate; v _{Pulse rate} Represents the frequency of the pulse, i.e. the pulse rate;

the laser generator generates light at the light-emitting frequency V _Luminescence Operating and emitting far infrared semiconductor laser to a target portion of the target object.

2. The laser physiotherapy system of claim 1, wherein the laser physiotherapy instrument further comprises a second storage module, a second time control module and a circuit control module; the second storage module is used for storing the corresponding relation between the target time period and the laser generator and historical data of the operation of the laser generator; the second time control module is used for acquiring the current moment;

the laser generators comprise a plurality of laser generators, and the laser generators are electrically connected to the circuit control module in parallel; the second data processing module is electrically connected with the second storage module, the second time control module and the circuit control module respectively, and controls the laser generators to operate according to a preset program through the circuit control module according to historical data and a target time period of the current time;

the corresponding relation between the target time period and the laser generator is determined according to the corresponding relation between the target part and the target time period and the corresponding relation between the target part and the laser generator;

the preset program is set according to the corresponding relation between the target time period and the laser generator and the operation target duration of the laser generator.

3. The laser physiotherapy system of claim 2, wherein the plurality of laser generators are distributed according to characteristics of the target portion, and each of the laser generators corresponds to an acupoint of the target portion, so that the laser generated by the laser generator can irradiate the corresponding acupoint.

4. The laser physiotherapy system of claim 1, further comprising a remote device comprising a third storage module, a third communication module, and a third data processing module; the third communication module is used for being in communication connection with the first communication module and/or the second communication module;

the physiological data also comprises identity characteristic data, target part characteristic data and current function parameters of the target part; the first communication module transmits the heartbeat or pulse data, the identity characteristic data, the target part characteristic data and the current function parameter of the target part to the third storage module through the third communication module; the second communication module transmits the historical data of the operation of the laser generator to the third storage module through the third communication module; the third storage module receives the data and then stores and updates the stored data in real time;

the third data processing module is used for generating a treatment sample model related to the heartbeat or pulse data, the identity characteristic data, the target part characteristic data and the current functional parameters of the target part according to the data stored in the third storage module through machine learning; searching a corresponding treatment sample according to the identity characteristics of the target object;

the third data processing module generates a laser physiotherapy instrument sample model related to the treatment sample model according to the data stored in the third storage module by machine learning, and can search a corresponding laser physiotherapy instrument sample according to the treatment sample;

and the third communication module transmits the treatment sample to the second data processing module through the second communication module, and then controls the laser physiotherapy instrument sample to operate according to the treatment sample.

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